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CONFIGURATION AND
PROGRAMMING MANUAL

Advanced Power Controller

GPC

code: 81901A “MSW_GPC-40/600A”

Software version 2.1x

81901A “MSW_GPC-40/600A”_03-2021_ENG

Содержание GPC

Страница 1: ...CONFIGURATION AND PROGRAMMING MANUAL Advanced Power Controller GPC code 81901A MSW_GPC 40 600A Software version 2 1x 81901A MSW_GPC 40 600A _03 2021_ENG ...

Страница 2: ......

Страница 3: ...meter input scale limit 31 3 10 2 Upper VT voltmeter input scale limit 31 3 10 3 VT voltage transformer input offset 31 3 10 4 Three phase line unbalance threshold 32 3 10 5 Voltmeter input value 32 3 10 6 Filtered voltmeter input value 32 3 10 7 VOLTAGE_STATUS 32 3 10 8 Grid frequency 33 3 10 9 VT voltmeter input digital filter 33 3 11 Measuring the power on the load and energy consumed 34 3 11 1...

Страница 4: ...for custom out put 91 3 19 13 STATUS4 stored with custom output activation 92 3 19 14 ALSTATE_IRQ stored with custom output activation 92 3 19 15 VOLTAGE_STATUS stored with custom output activa tion 92 3 20 Analog outputs 93 3 20 1 Types of analog output 94 3 20 2 Analog output reference allocation 95 3 20 3 Lower analog output scale limit 96 3 20 4 Upper analog output scale limit 96 3 20 5 Serial...

Страница 5: ...notes 135 4 1 Setting parameters LS A1 LS A2 LS A3 and HS A1 HS A2 HS A3 135 4 1 1 Full input voltage range 135 4 1 2 Input voltage range limited downwards 135 4 1 3 Input voltage range limited upwards 135 4 1 4 Formulas for calculating LS Ax and HS Ax 135 4 2 Using a function associated with the digital input and via serial 136 4 3 Using digital input 1 to enable software startup 137 4 4 Alarms 1...

Страница 6: ...81901 MSW_GPC 40 600A _03 2021_ENG_page 4 ...

Страница 7: ... contact Gefran review the manual and sections of the manual that pertains to the problem encoun tered When contacting Gefran have the manual available for reference Caution Repairs to the Advanced Power Con troller must only be made by technical personnel suitably trained and authorised by Gefran Any attempt to repair or modify the hardware features of the device by unauthorised personnel will vo...

Страница 8: ...81901 MSW_GPC 40 600A _03 2021_ENG_page 6 ...

Страница 9: ...t of Gefran S p A test conditions and the user must compare them to his her real application requirements Gefran S p A cannot be held in any way liable for damage to persons or property resulting from tampering or use that is incorrect improper or otherwise incompliant with the features of the controller and the instructions contained in this manual Gefran S p A shall not be liable for installatio...

Страница 10: ...81901 MSW_GPC 40 600A _03 2021_ENG_page 8 ...

Страница 11: ...e technical specifications in the accom panying documentation Regardless of any other consideration it is always strictly prohibited to use the instrument or parts of it including the software for purposes other than those specified in the accom panying technical documentation The Advanced Power Controller must only be used by per sonnel qualified for the assigned task in compliance with the instr...

Страница 12: ...81901 MSW_GPC 40 600A _03 2021_ENG_page 10 ...

Страница 13: ...rend Parameter archive management for multiple configura tions Features Guided product selection Simplified setting Multilingual Print parameters Creation and saving of recipes Network autoscan 2 2 1 1 System requirements Minimum Recommended Operating system Windows XP SP2 Windows Vista or Windows 7 32 bit Windows 10 64 bit Processor Intel Pentium 1 GHz Intel Core i7 2 9 Ghz or higher RAM 2 GB 4 G...

Страница 14: ...e quired information e Save the final parameter recipe and send it to the controller f Select WIZARD g Select M and check the following parameters and their values in the data sheet OFF ON OFF MAN AUTO MAN Man P 0 0 Change the parameter if necessary 7 Close the power line fuses 8 Connect the ENABLE INTERLOCK signal to Digital In put 4 The ER LED red goes off If this 24 Vdc signal is not present th...

Страница 15: ...ad 5 Acronym by which the parameter is identified 6 Indicates whether the parameter is global or only af fects a particular module 7 Complete path of the GF_eXpress menu 8 Parameter attribute R the parameter is read only R W the parameter can be read and written 9 Indicates whether the parameter value remains stored even after the controller is switched off 10 Indicates the type of parameter With ...

Страница 16: ...anced functions Single node mode in addition to having a set of customis able custom parameters for dynamic addressing allows only one node to be used in the communication network instead of the 3 nodes required by Multi node mode 3 2 Legend for functional parameter diagrams 3 3 Modes of use Physical input Controller Internal vari able Parameter processing Physical output Processing with parameter...

Страница 17: ... use the address Cod 1026 Cod 2 1024 for GPC M the address Cod 2050 Cod 2 2048 for GPC E1 the address Cod 4098 Cod 2 4096 for GPC E2 2 is the address of the variable Ou P in Multi node mode 3 4 2 1 Custom Modbus memory map The addresses 0 to 119 correspond to the words of the Custom group variables and parameters are defined by default The Custom Modbus map accessible via the Main Menu Custom Map ...

Страница 18: ...E2 will have the address 16 2 Cod 2 2 3 5 Time constraints of serial communication In order to permit correct serial data exchange with the device the following time constraints must be respected Reading register word parameters Reading n consecutive parameters with n varying from 1 to 16 requires a time of 40 ms with retentive memory enabled default 35 ms with retentive memory disabled The retent...

Страница 19: ... are bAu which allows the speed to be set in bits s and Par which allows the parity to be set The corresponding parameters for PORT 2 are bAu 2 and PAr2 Changing the parameters bAu and PAr may invali date the communication 3 6 2 Communication error If a communication error occurs between the GPC device and the Master device it is possible to force an output power value C E P parameter of each modu...

Страница 20: ...rt 0 2939 03 03 01 E1 MainMenu E1 Controls C E m_2 4987 03 04 01 E2 MainMenu E2 Controls C E m_3 The parameter defines what happens to the power delivered from the output of the GPC device when a communication error occurs Options 0 The power delivered is not changed 1 The power delivered is forced to the value determined by the parameter C E P 3 6 7 Output power with communication error Address F...

Страница 21: ... 0 Input disabled 1 Voltage 0 10 V 2 Voltage 0 5 V or potentiometer 3 Current 0 20 mA 4 Current 4 20 mA 3 7 3 Analog input lower scale limit Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1598 574 16 bit 04 05 02 LS A1 Global MainMenu Global Inputs Analog input 1 LS A1 R W Float s p 0 0 1862...

Страница 22: ... p 0 0 1865 841 16 bit 04 06 04 oFS A2 Global MainMenu Global Inputs Analog input 2 oFS A2 R W Float s p 0 0 1872 848 16 bit 04 07 04 oFS A3 Global MainMenu Global Inputs Analog input 3 oFS A3 R W Float s p 0 0 The parameter sets the offset applied to the value read from analog input A1 or A2 or A3 to match the expected value It is used to correct a possible constant probe reading error This offse...

Страница 23: ...read in the variable Ld A of the individual module each module corresponds to a single phase load For three phase loads which use 3 modules M line L1 E1 line L2 E2 line L3 the average of the Ld A variables of the individual modules is taken and stored in the variable Ld A t Input measurement accuracy is better than 1 in start modes ZC BF and HSC In PA mode the accuracy is better than 3 with a cond...

Страница 24: ... Ou P Ammeter input TA phase 2 L2 RMS current Ld A_2 Scale limits L tA_2 H tA_2 Offset o tA_2 Filtered input I on_2 SCR ON Low pass filter Ft tA_2 Control output Ou P_2 Ammeter input TA phase 3 L3 RMS current Ld A_3 Current averages Ld A t Scale limits L tA_3 H tA_3 Offset o tA_3 Filtered input I on_3 SCR ON Low pass filter Ft tA_3 Control output Ou P_3 GPC M GPC E1 GPC E2 limits depend on the cur...

Страница 25: ... Ht A_1 R Float A see table 2453 04 11 02 E1 MainMenu E1 Inputs CT input Ht A_2 4501 04 14 02 E2 MainMenu E2 Inputs CT input Ht A_3 The parameter shows the upper limit of the measuring scale used for the CT ammeter input of device M or E1 or E2 The value depends on the current rating of the device or in the case of an external CT on the value of the parameter r tA 3 8 3 Ammeter input offset Addres...

Страница 26: ...a surement Default Single node Multi node Description 1163 139 16 bit I tA M MainMenu M Status I tA_1 R Float A 2187 E1 MainMenu E1 Status I tA_2 4235 E2 MainMenu E2 Status I tA_3 The parameter shows the instantaneous input read from the ammeter input of device M or E1 or E2 3 8 6 Filtered ammeter input value Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Typ...

Страница 27: ...evice M or E1 or E2 3 8 10 RMS current in three phase load Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1778 754 16 bit 01 01 02 Ld A t Global MainMenu Global Status Ld A t R Float A The parameter shows the RMS current input of the three phase load 3 8 11 Ammeter input digital filter Addre...

Страница 28: ...owing diagrams show the processing sequences for the initial voltage value Load voltage Ld V Scale limits L tVL H tVL Offset o tVL Low pass filter Ft tVL Line voltmeter input I VF Load voltage Ld V Control output value Ou P RMS Phase 1 line voltme ter input I VF_1 Control output value Ou P_1 Phase 2 line voltme ter input I VF_2 Load voltage Ld V_1 Load voltage Ld V_2 Load voltage Ld V_3 Load volta...

Страница 29: ...ess menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1734 710 16 bit Ld VIS M MainMenu M Status Ld VIS_1 R Float V 2758 E1 MainMenu E1 Status Ld VIS_2 4806 E2 MainMenu E2 Status Ld VIS_3 The parameter shows the instantaneous voltage on the load Load voltage Ld V_1 Scale limits L tVL_1 H tVL_1 Offset o tVL_1 Low pass filter Ft tVL_1 Load voltage Ld V_2 S...

Страница 30: ...fault Single node Multi node Description 1463 439 16 bit 04 10 01 L tVL M MainMenu M Inputs VT load input L tVL_1 R Float V 0 0 2487 04 13 01 E1 MainMenu E1 Inputs VT load input L tVL_2 4535 04 16 01 E2 MainMenu E2 Inputs VT load input L tVL_3 The parameter shows the lower limit of the measurement scale used for the TV_LOAD voltage transformer input The parameter is present if the VLOAD option exi...

Страница 31: ... R W Float V 0 1 2490 04 13 04 E1 MainMenu E1 Inputs VT load input Ft tVL_2 4538 04 16 04 E2 MainMenu E2 Inputs VT load input Ft tVL_3 The parameter sets the time constant value of the digital filter applied to the value read from the input of the TV_LOAD voltage transform er The filter calculates the average of the values read in the specified time interval With 0 00 no filter is applied The para...

Страница 32: ..._1 Low pass filter Ft tV_1 Filtered input voltage I VF_1 Voltmeter input voltage I tV_1 Mains frequency FrEq_1 Generic alarms Phase 2 line voltmeter input L2 Scale limits L tV_2 H tV_2 Offset o tV_2 Filter low pass Ft tV_2 Filtered input voltage I VF_2 Voltmeter input voltage I tV_2 Mains frequency FrEq_2 Generic alarms Phase 3 line voltmeter input L3 Scale limits L tV_3 H tV_3 Offset o tV_3 Low p...

Страница 33: ...e para graph 3 9 6 2458 04 13 02 E1 MainMenu E1 Inputs VT line input H tV_2 4506 04 15 02 E2 MainMenu E2 Inputs VT line input H tV_3 The parameter shows the upper limit of the line voltage measurement scale used for the voltmeter input The default value of the upper limit depends on the controller model see the table in paragraph 3 9 6 Upper voltmeter input scale limit 3 10 3 VT voltage transforme...

Страница 34: ... see paragraph 3 10 7 VOLTAGE_STATUS min max 0 50 3 10 5 Voltmeter input value Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1256 232 16 bit l tV M MainMenu M Status l tV_1 R Float V 2280 E1 MainMenu E1 Status l tV_2 4328 E2 MainMenu E2 Status l tV_3 The parameter shows the instantaneous va...

Страница 35: ...e phase configuration 3 10 8 Grid frequency Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1339 315 16 bit 01 02 03 FrEq M MainMenu M Status FrEq_1 R Float Hz 2363 01 03 03 E1 MainMenu E1 Status FrEq_2 4411 01 04 03 E2 MainMenu E2 Status FrEq_3 The parameter shows the filtered value of the m...

Страница 36: ... power energy consumed and imped ance values Single phase load Three phase load Phase 1 L1 Phase 2 L2 Phase 3 L3 with BIPHASE command the value Ld P_3 is obtained as the average of the values Ld P_1 and Ld P_2 Ld V Ld A RMS load voltage Ld V Energy variables Ld E1 Ld E2 Time elapsed from power on or reset RMS load current Ld A Impedance Ld I Filter Cos F Active power Ld P Ld V t Ld A t RMS load vo...

Страница 37: ...ription 1773 749 16 bit 01 02 08 Ld I M MainMenu M Status Ld I_1 R Float ohm 2797 01 03 08 E1 MainMenu E1 Status Ld I_2 4845 01 04 08 E2 MainMenu E2 Status Ld I_3 The parameter shows the load impedance value The value is calculated by dividing the value of Ld V by the value of Ld A 3 11 4 Three phase load impedance Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retenti...

Страница 38: ...r last reset which is the sum of the E1 energies consumed on the 3 individual phases 3 11 8 E2 three phase energy consumed Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1524 500 32 bit 01 01 06 Ld E2 t Global MainMenu Global Status Ld E2 t R Unsigned Int kWh The parameter shows the value of...

Страница 39: ...ts Automatic manual control see paragraph 3 22 Auto matic manual control Alarm memory reset see paragraph 3 13 13 Alarm memory reset Software shutdown startup see paragraph 3 25 Software shutdown Reference Feedback calibration see paragraph 3 31 9 Feedback reference calibration HB alarm calibration see diagrams Functional dia gram of HB calibration in ZC BF HSC mode on page 61 Functional diagram o...

Страница 40: ...us BIT_STATUS_DIG1 PWM input value In Pwm1 PWM input timeout PWm t1 PWM input filter Ft PWm1 Digital input function dIG 1 enable selected function processing flow by selecting PWM with dIG1 Digital Input 3 Digital input status BIT_STATUS_DIG3 PWM input value In Pwm3 PWM input timeout PWm t3 PWM input filter Ft PWm3 Digital input function dIG 3 processing flow by selecting PWM with dIG3 enable sele...

Страница 41: ...lobal MainMenu Global Expert Bit BIT_STATUS_DIG1 R 1116 92 bit BIT_ STATUS_ DIG2 Global MainMenu Global Expert Bit BIT_STATUS_DIG2 R 1091 67 bit BIT_ STATUS_ DIG3 Global MainMenu Global Expert Bit BIT_STATUS_DIG3 R 1090 66 bit BIT_ STATUS_ DIG4 Global MainMenu Global Expert Bit BIT_STATUS_DIG4 R The parameter shows the status of digital input 1 2 3 or 4 depending on the address used Options OFF Di...

Страница 42: ...edge 10 Reset POWER_FAULT alarm memory On leading edge 12 AL1 AL8 and POWER_FAULT generic alarm memory reset On state 13 Enable software startup On state 14 Reference calibration of feedback selected by hd 6 On leading edge 15 HB alarm threshold calibration On leading edge 64 FUSE_OPEN SHORT_CIRCUIT_CURRENT alarm reset On state 65 Reference calibration of feedback selected by hd 6 for GPC M On lea...

Страница 43: ...F_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1462 438 16 bit 04 17 06 Ft PWm1 Global MainMenu Global Inputs Digital inputs Ft PWm1 R W Float sec 0 1 1396 372 16 bit 04 17 07 Ft PWm2 Global MainMenu Global Inputs Digital inputs Ft PWm2 R W Float sec 0 1 1397 373 16 bit 04 17 08 Ft PWm3 Global MainMenu Global Inputs Digital inputs Ft PWm3 R ...

Страница 44: ...tered line voltage value I VF_x Load impedance value Ld I_x Load terminal temperature value In Ntc LOAD_x Alarm status AL1_x Alarm status AL2_x Alarm status AL3_x Alarm status AL4_x Alarm status AL5_x Alarm status AL6_x Alarm status AL7_x Alarm status AL8_x Power board temperature value In Ntc AIR_x Analog input value In A1 In A2 In A3 PWM input value In Pwm1 In Pwm2 In Pwm3 Load current value I o...

Страница 45: ...32 AL 6 64 and AL 7 128 Options Index Alarm 1 Alarm 2 Alarm 3 Alarm 4 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Increasing the index results in the following behaviours 16 to enable the HB alarm 32 to enable Alarm 5 64 to enable Alarm 6 128 to enable Alarm 7 256 to enable Alarm 8 Example Setting 19 3 16 enables generic alarms 1 and 3 including their HB alarms while all other alarms are disabled The de...

Страница 46: ..._3 1242 218 16 bit 05 01 05 A4 r M MainMenu M Alarms AL1 AL8 alarms AL4 A4 r_1 R W Unsigned Short 18 2266 05 02 05 E1 MainMenu E1 Alarms AL1 AL8 alarms AL4 A4 r_2 4314 05 03 05 E2 MainMenu E2 Alarms AL1 AL8 alarms AL4 A4 r_3 1226 202 16 bit 05 01 06 A5 r M MainMenu M Alarms AL1 AL8 alarms AL5 A5 r_1 R W Unsigned Short 18 2250 05 02 06 E1 MainMenu E1 Alarms AL1 AL8 alarms AL5 A5 r_2 4298 05 03 06 E...

Страница 47: ...e Decimal point position 9 In A1 Analog input 1 AL y with y 1 8 LS A1 HS A1 10 In Pwm1 input PWM 1 0 0 100 0 11 In A2 Analog input 2 LS A2 HS A2 12 In A3 Analog input 3 LS A3 HS A3 13 In Pwm2 input PWM 2 0 0 100 0 14 In Pwm3 input PWM 3 0 0 100 0 15 I tA_x instantaneous load current of module x L tA_x H tA_x 16 I tV_x instantaneous line voltage of module x L tV_x H tV_x 17 I on_x Load current of m...

Страница 48: ...bit 05 01 21 AL 4 M MainMenu M Alarms AL1 AL8 alarms AL4 AL 4_1 R W Float s p see Table A 2106 05 02 21 E1 MainMenu E1 Alarms AL1 AL8 alarms AL4 AL 4_2 4154 05 03 21 E2 MainMenu E2 Alarms AL1 AL8 alarms AL4 AL 4_3 1222 198 16 bit 05 01 22 AL 5 M MainMenu M Alarms AL1 AL8 alarms AL5 AL 5_1 R W Float s p see Table A 2246 05 02 22 E1 MainMenu E1 Alarms AL1 AL8 alarms AL5 AL 5_2 4294 05 03 22 E2 MainM...

Страница 49: ...valid values for the threshold and the position of the decimal point may vary according to the reference variable chosen for the alarm Ax r with x 1 8 min max 999 999 If symmetrical alarm 0 999 If symmetrical and relative alarm For further information on symmetrical alarms see paragraph 4 4 1 Generic alarms AL1 AL8 Table A Model Default 480 V 528 0 600 V 658 0 690 V 758 0 Table B Model Default 40 ...

Страница 50: ... 1 2258 05 02 30 E1 MainMenu E1 Alarms AL1 AL8 alarms AL5 Hy 1_2 4306 05 03 30 E2 MainMenu E2 Alarms AL1 AL8 alarms AL5 Hy 5_3 1235 211 16 bit 05 01 31 Hy 6 M MainMenu M Alarms AL1 AL8 alarms AL6 Hy 6_1 R W Float s p sec min 1 2259 05 02 31 E1 MainMenu E1 Alarms AL1 AL8 alarms AL6 Hy 6_2 4307 05 03 31 E2 MainMenu E2 Alarms AL1 AL8 alarms AL6 Hy 6_3 1236 212 16 bit 05 01 32 Hy 7 M MainMenu M Alarms...

Страница 51: ...bit 05 01 13 A4 t M MainMenu M Alarms AL1 AL8 alarms AL4 A4 t_1 R W Unsigned Short 32 2457 05 02 13 E1 MainMenu E1 Alarms AL1 AL8 alarms AL4 A4 t_2 4505 05 03 13 E2 MainMenu E2 Alarms AL1 AL8 alarms AL4 A4 t_3 1230 206 16 bit 05 01 14 A5 t M MainMenu M Alarms AL1 AL8 alarms AL5 A5 t_1 R W Unsigned Short 32 2254 05 02 14 E1 MainMenu E1 Alarms AL1 AL8 alarms AL5 A5 t_2 4302 05 03 14 E2 MainMenu E2 A...

Страница 52: ...ical Increasing the index by a fixed amount results in the following behaviours Index 8 The alarm is disabled from startup until the alarm threshold is first intercepted Index 16 Alarm memory is enabled Index 32 A1 t becomes the alarm activation delay time 0 999 minutes This does not apply to the symmetrical absolute Index 64 A1 t becomes the alarm activation delay time 0 999 seconds This does not...

Страница 53: ...M MainMenu M Expert Bit BIT_AL2_DIR_INV_1 R W OFF 2102 E1 MainMenu E1 Expert Bit BIT_AL2_DIR_INV_2 4150 E2 MainMenu E2 Expert Bit BIT_AL2_DIR_INV_3 1060 36 bit BIT_ AL3_ DIR_INV M MainMenu M Expert Bit BIT_AL3_DIR_INV_1 R W OFF 2084 E1 MainMenu E1 Expert Bit BIT_AL3_DIR_INV_2 4132 E2 MainMenu E2 Expert Bit BIT_AL3_DIR_INV_3 1094 70 bit BIT_ AL4_ DIR_INV M MainMenu M Expert Bit BIT_AL4_DIR_INV_1 R ...

Страница 54: ..._ REL M MainMenu M Expert Bit BIT_AL2_ABS_REL_1 R W OFF 2103 E1 MainMenu E1 Expert Bit BIT_AL2_ABS_REL_2 4151 E2 MainMenu E2 Expert Bit BIT_AL2_ABS_REL_3 1061 37 bit BIT_ AL3_ ABS_ REL M MainMenu M Expert Bit BIT_AL3_ABS_REL_1 R W OFF 2085 E1 MainMenu E1 Expert Bit BIT_AL3_ABS_REL_2 4133 E2 MainMenu E2 Expert Bit BIT_AL3_ABS_REL_3 1095 71 bit BIT_ AL4_ ABS_ REL M MainMenu M Expert Bit BIT_AL4_ABS_...

Страница 55: ...AL2_NOR_SYM_1 R W OFF 2104 E1 MainMenu E1 Expert Bit BIT_AL2_NOR_SYM_2 4152 E2 MainMenu E2 Expert Bit BIT_AL2_NOR_SYM_3 1062 38 bit BIT_ AL3_ NOR_ SYM M MainMenu M Expert Bit BIT_AL3_NOR_SYM_1 R W OFF 2086 E1 MainMenu E1 Expert Bit BIT_AL3_NOR_SYM_2 4134 E2 MainMenu E2 Expert Bit BIT_AL3_NOR_SYM_3 1096 72 bit BIT_ AL4_ NOR_ SYM M MainMenu M Expert Bit BIT_AL4_NOR_SYM_1 R W OFF 2120 E1 MainMenu E1 ...

Страница 56: ...IT_AL2_DISABLE_PWON_1 R W OFF 2105 E1 MainMenu E1 Expert Bit BIT_AL2_DISABLE_PWON_2 4153 E2 MainMenu E2 Expert Bit BIT_AL2_DISABLE_PWON_3 1063 39 bit BIT_ AL3_ DISA BLE_ PWON M MainMenu M Expert Bit BIT_AL3_DISABLE_PWON_1 R W OFF 2057 E1 MainMenu E1 Expert Bit BIT_AL3_DISABLE_PWON_2 4135 E2 MainMenu E2 Expert Bit BIT_AL3_DISABLE_PWON_3 1097 73 bit BIT_ AL4_ DISA BLE_ PWON M MainMenu M Expert Bit B...

Страница 57: ...MEM M MainMenu M Expert Bit BIT_AL2_MEM_1 R W OFF 2106 E1 MainMenu E1 Expert Bit BIT_AL2_MEM_2 4154 E2 MainMenu E2 Expert Bit BIT_AL2_MEM_3 1064 40 bit BIT_ AL3_ MEM M MainMenu M Expert Bit BIT_AL3_MEM_1 R W OFF 2088 E1 MainMenu E1 Expert Bit BIT_AL3_MEM_2 4136 E2 MainMenu E2 Expert Bit BIT_AL3_MEM_3 1098 74 bit BIT_ AL4_ MEM M MainMenu M Expert Bit BIT_AL4_MEM_1 R W OFF 2122 E1 MainMenu E1 Expert...

Страница 58: ... 0 2111 05 02 37 E1 MainMenu E1 Alarms AL1 AL8 alarms AL4 A4 P_2 4159 05 03 37 E2 MainMenu E2 Alarms AL1 AL8 alarms AL4 A4 P_3 1088 64 16 bit 05 01 38 A5 P M MainMenu M Alarms AL1 AL8 alarms AL5 A5 P_1 R W Float 0 0 2112 05 02 38 E1 MainMenu E1 Alarms AL1 AL8 alarms AL5 A5 P_2 4160 05 03 38 E2 MainMenu E2 Alarms AL1 AL8 alarms AL5 A5 P_3 1089 65 16 bit 05 01 39 A6 P M MainMenu M Alarms AL1 AL8 ala...

Страница 59: ... BIT_STATUS_AL4_1 R 2117 E1 MainMenu E1 Expert Bit BIT_STATUS_AL4_2 4165 E2 MainMenu E2 Expert Bit BIT_STATUS_AL4_3 1042 18 bit BIT_ STA TUS_ AL5 M MainMenu M Expert Bit BIT_STATUS_AL5_1 R 2066 E1 MainMenu E1 Expert Bit BIT_STATUS_AL5_2 4114 E2 MainMenu E2 Expert Bit BIT_STATUS_AL5_3 1043 19 bit BIT_ STA TUS_ AL6 M MainMenu M Expert Bit BIT_STATUS_AL6_1 R 2067 E1 MainMenu E1 Expert Bit BIT_STATUS_...

Страница 60: ...mea surement Default Single node Multi node Description 1342 318 16 bit AL STATE_ IRQ M MainMenu M Status ALSTATE_IRQ_1 R 2366 E1 MainMenu E1 Status ALSTATE_IRQ_2 4414 E2 MainMenu E2 Status ALSTATE_IRQ_3 The parameter shows the status of generic alarms AL1 AL8 and HB POWER_FAULT alarms Bit 0 indicates the alarm is not active bit 1 indicates the alarm is active The following table shows the corresp...

Страница 61: ...ivered remains significant even during periods when it should be zero this is the situation when the load drive circuits are short circuited or when the relay contacts weld together Early intervention in these situations is very important to avoid major dam age to the load and or the driver circuits In standard configuration the SSR output is associated with the heating control of GPC M achieved b...

Страница 62: ...larm function Hb F and HB alarm activation time Hb t Alarm threshold HB tr_2 Filtered VT voltmeter input value I VF_1 Filtered CT ammeter input value with output 1 activated I on_1 Alarm threshold HB tr_1 HB alarm status phase 1 HB alarm status phase 2 HB alarm status phase 3 Filtered CT ammeter input value with output 2 activated I on_2 Filtered VT voltmeter input value I VF_2 Alarm threshold HB ...

Страница 63: ...libration Hb Pw VT readout in HB calibration Hb tV HB alarm threshold current read in HB cali bration Hb P Functional diagram of HB calibration in PA mode BIT_CALIB_HB ON Function dIG 1 dIG 2 dIG 3 dIG 4 Key Function Load current referred to 100 conduction Control output value Ou P CT ammeter input value with output activated I on Filtered VT voltme ter input value I VF CT reading in HB calibratio...

Страница 64: ...tion with IR lamp Ir tA 7 Ou P power 3 HB calibration with IR lamp Ir tV 4 HB calibration with IR lamp Ir tV 2 Ou P power 30 HB calibration with IR lamp Ir tV 8 HB calibration with IR lamp Ir tV 9 HB calibration with IR lamp Ir tA 2 Ou P power 10 HB calibration with IR lamp Ir tA 5 HB calibration with IR lamp Ir tA 8 HB calibration with IR lamp Ir tA 9 Ou P power 2 Ou P power 1 HB calibration with...

Страница 65: ... for the ON time of the SSR control output 1 Can be used with relay or logic output The alarm is active when the load current value is higher than the threshold set for the OFF time of the SSR control output 2 The alarm is active if one of the functions 0 and 1 is active logical OR between functions 0 and 1 For function 1 the threshold is considered to be 12 of the ammeter full scale H tA_x 3 Cont...

Страница 66: ...iption 1136 112 bit 12 01 05 BIT_ CALIB_ HB M MainMenu M Expert Bit BIT_CALIB_HB_1 R W 0 2160 12 02 05 E1 MainMenu E1 Expert Bit BIT_CALIB_HB_2 4208 12 03 05 E2 MainMenu E2 Expert Bit BIT_CALIB_HB_3 This bit enables the alarm threshold calibration function for modules GPC M GPC E1 and GPC E2 depending on the address used It should be noted that with a three phase load a different value can be set ...

Страница 67: ...ms HB alarm Hb tA_2 4838 05 06 05 E2 MainMenu E2 Alarms HB alarm Hb tA_3 The parameter sets the CT reading in HB calibration min max 0 0 3275 0 3 14 8 VT reading in HB calibration Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1476 452 16 bit 05 04 06 Hb tV M MainMenu M Alarms HB alarm Hb tV...

Страница 68: ...arms HB alarm Ir tA 3_3 1791 767 16 bit 05 04 12 Ir tA 4 M MainMenu M Alarms HB alarm Ir tA 4_1 R W Float A 0 0 2815 05 05 12 E1 MainMenu E1 Alarms HB alarm Ir tA 4_2 4863 05 06 12 E2 MainMenu E2 Alarms HB alarm Ir tA 4_3 1792 768 16 bit 05 04 13 Ir tA 5 M MainMenu M Alarms HB alarm Ir tA 5_1 R W Float A 0 0 2816 05 05 13 E1 MainMenu E1 Alarms HB alarm Ir tA 5_2 4864 05 06 13 E2 MainMenu E2 Alarms...

Страница 69: ...mps The following table shows the correspondence between acronym and per centage of conduction current Acronym Current Ir tA 0 100 conduction Ir tA 1 50 conduction Ir tA 2 30 conduction Ir tA 3 20 conduction Ir tA 4 15 conduction Ir tA 5 10 conduction Ir tA 6 5 conduction Ir tA 7 3 conduction Ir tA 8 2 conduction Ir tA 9 1 conduction min max 0 0 3275 0 For details of HB calibration with IR lamps s...

Страница 70: ...arms HB alarm Ir tV 3_3 1473 449 16 bit 05 04 22 Ir tV 4 M MainMenu M Alarms HB alarm Ir tV 4_1 R W Float V 0 0 2497 05 05 22 E1 MainMenu E1 Alarms HB alarm Ir tV 4_2 4545 05 06 22 E2 MainMenu E2 Alarms HB alarm Ir tV 4_3 1474 450 16 bit 05 04 23 Ir tV 5 M MainMenu M Alarms HB alarm Ir tV 5_1 R W Float V 0 0 2498 05 05 23 E1 MainMenu E1 Alarms HB alarm Ir tV 5_2 4546 05 06 23 E2 MainMenu E2 Alarms...

Страница 71: ... function of power on load Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1768 744 16 bit Hb tr M MainMenu M Alarms HB alarm Hb tr_1 R Float A 2792 E1 MainMenu E1 Alarms HB alarm Hb tr_2 4840 E2 MainMenu E2 Alarms HB alarm Hb tr_3 The parameter shows the HB alarm threshold as a function of t...

Страница 72: ...configuration Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1101 77 bit BIT_ STATUS_ HB_ PHASE2 Global MainMenu M Expert Bit BIT_STATUS_HB_PHASE2_1 R The parameter shows the HB alarm status in the single phase configuration or that of CT phase 2 in the two phase or three phase config uratio...

Страница 73: ...e Description 1528 504 16 bit AL STATE_ HB Global MainMenu Global Status ALSTATE_HB R The parameter shows the HB ALSTATE_HB alarm status for phase 2 of two phase or three phase loads and phase 3 of three phase loads Each bit signals a state bit 0 corresponds to OFF bit 1 corresponds to ON Options bit HB alarm status 0 HB phase 2 alarm status for ON time 1 HB phase 2 alarm status for OFF time 2 AL ...

Страница 74: ...arms hd 2_1 R W Unsigned Short 11 2708 05 08 01 E1 MainMenu E1 Alarms PF alarms hd 2_2 4756 05 09 01 E2 MainMenu E2 Alarms PF alarms hd 2_3 The parameter sets the POWER_FAULT alarms SSR_SHORT SSR short circuit NO_VOLTAGE voltage failure and NO_CURRENT cur rent failure Active alarms are identified and set with an index The index 0 deactivates all 3 alarms Options Index SSR_SHORT alarm on NO_VOLTAGE...

Страница 75: ...er for the NO_VOLTAGE and NO_CURRENT alarms It is recommended to set a value not lower than the cycle time min max 0 99 3 15 4 HB SSR_SHORT NO_VOLTAGE and NO_CURRENT alarm reset See paragraph 3 14 20 HB SSR_SHORT NO_VOLTAGE and NO_CURRENT alarm reset 3 15 5 Status 3 STATUS3 Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Singl...

Страница 76: ...hree phase configuration Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1121 97 bit BIT_ STATUS_ SSR_ SHORT_ PHASE2 M MainMenu M Expert Bits BIT_STATUS_SSR_SHORT_PHASE2_1 R The bit shows the SSR_SHORT alarm status in the single phase configuration or that of CT phase 2 in two phase or three ...

Страница 77: ...e phase configuration Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1124 100 bit BIT_ STATUS_ NO_ VOLT AGE_ PHASE2 M MainMenu M Expert Bits BIT_STATUS_NO_VOLTAGE_PHASE2_1 R The bit shows the NO_VOLTAGE alarm status in single phase configuration or the phase 2 CT status in two phase or three...

Страница 78: ...ree phase configuration Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1127 103 bit BIT_ STATUS_ NO_CUR RENT_ PHASE2 M MainMenu M Expert Bit BIT_STATUS_NO_CURRENT_PHASE2_1 R The bit shows the NO_CURRENT alarm status in single phase configuration or the CT phase 2 status in two phase or three...

Страница 79: ...ne of the temperatures exceeds a set threshold there is also a hysteresis to deactivate the alarm This condition could be caused by obstruction of the venti lation grill or blockage of the cooling fan With the OVER_HEAT alarm on the control disables control outputs OUT1 OUT2 and OUT3 As an additional safety feature the power modules are equipped with maximum hardware temperature protection which d...

Страница 80: ...tatus In Ntc LINE_3 The parameter shows the temperature recorded by the temperature sensor connected to the LINE terminals 3 16 3 Temperature value of LOAD terminals Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1559 535 16 bit In Ntc LOAD M MainMenu M Expert Status In Ntc LOAD_1 R Float C ...

Страница 81: ... temperature value over the entire lifetime of the device i e since the first power on The parameter cannot be reset 3 16 6 Maximum temperature value of the power board Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1387 363 16 bit In Ntc AIR Max1 M MainMenu M Expert Status In Ntc AIR Max1_1...

Страница 82: ...5 60 Hz 6 Short circuit current in phase softstart SHORT_CIRCUIT_CURRENT 7 Peak current limiter in phase softstart 8 RMS steady state current limiter 9 24 V fan power failure SSR_SAFETY 10 Fuse open FUSE_OPEN 11 Current polarity control 12 HSC current overload limiter in phase softstart 13 Faulty current transformer sensor 14 SSR hardware overtemperature HW_OVER_HEAT 3 16 8 Max1 temperature reset ...

Страница 83: ...atic device restarts after a FUSE_OPEN or SHORT_CIRCUIT_CURRENT alarm The device auto matically restarts in softstart mode If the number of attempts exceeds the Fr n value the device remains disabled while awaiting manual reset with the BUT front button or the serial communication command bit 109 Setting Fr n 0 disables automatic restart min max 0 20 3 17 2 FUSE_OPEN and SHORT_CIRCUIT_CURRENT alar...

Страница 84: ...assigned to user defina ble custom status programmed only with GF_eXpress The standard configuration of the outputs has the follow ing parameter assignments Reference signals rL 3 2 AL1 function rL 4 35 inverted AL2 function rL 5 4 AL3 function rL 6 160 active forced output function Output parameters out 9 31 out 10 31 In this way the default status of physical output OUT9 and OUT10 are given by t...

Страница 85: ...tus rL 4_1 Status rL 1_1 Status rL 6_1 Status rL 2_1 Cycle time Ct 1_1 Allocation of reference signal rL 1_1 rL 2_1 rL 3_1 rL 4_1 rL 5_1 rL 6_1 Cycle time Ct 2_1 OR AND Reference signals GPC E1 Status rL 3_2 Status rL 5_2 Status rL 4_2 Status rL 1_2 Status rL 6_2 Status rL 2_2 Cycle time Ct 1_2 Allocation of reference signal rL 1_2 rL 2_2 rL 3_2 rL 4_2 rL 5_2 rL 6_2 Cycle time Ct 2_2 OR AND Refere...

Страница 86: ...MainMenu E2 Outputs rL 2_3 1190 166 16 bit 06 01 03 rL 3 M MainMenu M Outputs rL 3_1 R W Unsigned Short 2 2214 06 02 03 E1 MainMenu E1 Outputs rL 3_2 4262 06 03 03 E2 MainMenu E2 Outputs rL 3_3 1194 170 16 bit 06 01 04 rL 4 M MainMenu M Outputs rL 4_1 R W Unsigned Short 35 2218 06 02 04 E1 MainMenu E1 Outputs rL 4_2 4266 06 03 04 E2 MainMenu E2 Outputs rL 4_3 1195 171 16 bit 06 01 05 rL 5 M MainMe...

Страница 87: ... AL1 OR AL HB OR POWER_FAULT with HB alarm TA1 OR TA2 OR TA3 16 AL1 OR AL2 OR AL HB OR POWER_FAULT with HB alarm TA1 OR TA2 OR TA3 17 AL1 AND AL HB OR POWER_FAULT with HB alarm TA1 OR TA2 OR TA3 18 AL1 AND AL2 OR AL HB OR POWER_ FAULT with HB alarm TA1 OR TA2 OR TA3 19 AL HB HB alarm TA2 20 AL HB HB alarm TA3 22 AL HB alarm HB TA1 23 POWER_FAULT SSR_SHORT OR NO_VOLTAGE OR NO_CURRENT 24 IN2 INDIG2 ...

Страница 88: ...on conduction cycles in the same ratio as the power to be transferred to the load The value of the parameter depends on the type of trigger 3 19 3 Status rL x MASKOUT_RL Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1332 308 16 bit 01 02 23 MASK OUT_RL M MainMenu M Status MASKOUT_RL_1 R Uns...

Страница 89: ... M Expert Bit BIT_STATUS_RL3_1 R 2062 E1 MainMenu E1 Expert Bit BIT_STATUS_RL3_2 4110 E2 MainMenu E2 Expert Bit BIT_STATUS_RL3_3 1039 15 bit BIT_ STA TUS_ RL4 M MainMenu M Expert Bit BIT_STATUS_RL4_1 R 2063 E1 MainMenu E1 Expert Bit BIT_STATUS_RL4_2 4111 E2 MainMenu E2 Expert Bit BIT_STATUS_RL4_3 1040 16 bit BIT_ STA TUS_ RL5 M MainMenu M Expert Bit BIT_STATUS_RL5_1 R 2064 E1 MainMenu E1 Expert Bi...

Страница 90: ... out 9 R W Unsigned Short 31 1640 616 16 bit 06 04 09 out 10 Global MainMenu Global Outputs Out1 Out10 out 10 R W Unsigned Short 31 The parameter sets the allocation of the rL signal to the physical output OUT1 OUT10 corresponding to the parameters out 1 out 10 Several rL signals can be allocated to the same physical output using the OR and AND logical operators The allocation is identified by an ...

Страница 91: ...et the alarm status masks ALSTATE_IRQ STATUS3 STATUS4 and VOLTAGE_STATUS for custom output OUT9 min max 0 65535 3 19 7 Alarm status masks for custom output 10 Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1944 920 16 bit OCM 10_1 Global MainMenu Global Expert Output Custom OCM 10_1 R W Unsi...

Страница 92: ...s OFF No action ON Resets the status to the last activation of custom OUT10 3 19 10 Physical output status Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1106 82 bit BIT_ STATUS_ OUT1 Global MainMenu Global Expert Bit BIT_STATUS_OUT1 R 1107 83 bit BIT_ STATUS_ OUT2 Global MainMenu Global Exp...

Страница 93: ...tored at last activation for custom output Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1321 297 16 bit STA TUS3_ FOR_ OUT09 M MainMenu Global Expert Output Custom STATUS3_FOR_OUT09_1 R Unsigned Short 2345 E1 MainMenu Global Expert Output Custom STATUS3_FOR_OUT09_2 4393 E2 MainMenu Global ...

Страница 94: ...e Multi node Description 1356 332 16 bit ALSTATE_ IRQ_FOR_ OUT09 M MainMenu Global Expert Output Custom ALSTATE_IRQ_FOR_OUT09_1 R Unsigned Short 2380 E1 MainMenu Global Expert Output Custom ALSTATE_IRQ_FOR_OUT09_2 4428 E2 MainMenu Global Expert Output Custom ALSTATE_IRQ_FOR_OUT09_3 1357 333 16 bit ALSTATE_ IRQ_FOR_ OUT10 M MainMenu Global Expert Output Custom ALSTATE_IRQ_FOR_OUT10_1 R Unsigned Sho...

Страница 95: ...ale values and reparameterisation is applied according to the selected output type Functional diagram of analog outputs Output value Out AO1 Reference allocation rF AO1 Output type tP AO1 Scale limits LS AO1 HS AO1 Output value Out AO2 Reference allocation rF AO2 Output type tP AO2 Scale limits LS AO2 HS AO2 ANALOG OUTPUT 3 Output value Out AO3 Reference allocation rF AO3 Output type tP AO3 Scale ...

Страница 96: ...W Unsigned Short 1 1891 867 16 bit 06 07 01 tP AO3 Global MainMenu Global Outputs Analog output3 tP A03 R W Unsigned Short 1 The parameter sets the type of analog outputs 1 2 and 3 depending on the address used Allocation is identified by an index Options Index Types of analog output 0 Current output 0 20 mA 1 Current output 4 20 mA 2 Voltage output 0 10 V 3 Voltage output 2 10 V Increasing the in...

Страница 97: ...nce signal Scale limits Unit of mea surement Min Max 0 None 1 Ou P control output of GPC M 0 0 100 0 2 Ou P control output of GPC E1 0 0 100 0 3 Ou P control output of GPC E2 0 0 100 0 4 In A1 analog input 1 0 0 100 0 5 In A2 analog input 2 0 0 100 0 6 In A3 analog input 3 0 0 100 0 7 In PWM1 PWM input 1 0 0 100 0 8 In PWM2 PWM input 2 0 0 100 0 9 In PWM3 PWM input 3 0 0 100 0 10 I VF line voltage...

Страница 98: ...06 06 07 HS A03 Global MainMenu Global Outputs Analog output3 HS AO3 R W Float s p 100 0 The parameter sets the upper scale limit of analog outputs 1 2 and 3 depending on the address used The type of limit and the unit of measurement are determined by the reference selected with parameter rF AO1 rF AO2 or rF AO3 The range of permissible values is limited at the lower end by the setting of paramete...

Страница 99: ...allows control of power output in automatic AUTO or manual MAN mode In man ual mode the control output is set to a constant value that can be modified via serial communication When switching from MAN to AUTO the setting of the output gradient G Out_x will move the Power Controller from the current MAN setting to the new Reference Power SPU_x setting When switching from AUTO to MAN it is possible t...

Страница 100: ... 2 In A2 Analog input 3 In A3 Digital input 1 In Pwm1 Digital input 2 In Pwm2 Reference power SPU_x Digital input 3 In Pwm3 Power from GPC M FW_POWER Power from GPC E1 FW_POWER Power from GPC E2 FW_POWER Manual power MANUAL_ POWER_x Output power offset P oFS_x Gradient for control output G Out_x Percentage of power output P PEr_x Minimum trig ger output L oP_x RMS current limitation hd 5_x Fu tA_x...

Страница 101: ...me indications as in index 9 apply 11 Power from GPC E2 FW_POWER For slave operation the same indications as in index 9 apply 12 Power from analog input 2 In A2 13 Power from analog input 3 In A3 14 Power from digital input 2 In Pwm2 15 Power from digital input 3 In Pwm3 3 21 2 Output power value Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea...

Страница 102: ...s menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1787 763 16 bit 07 02 05 G Out M MainMenu M Controls G Out_1 R W Float s 0 0 2811 07 03 05 E1 MainMenu E1 Controls G Out_2 4859 01 04 05 E2 MainMenu E2 Controls G Out_3 The parameter sets the gradient for the control output i e how quickly the final value is reached The gradient is defined as a percenta...

Страница 103: ...BIT_ AUTO_ MAN M MainMenu M Expert Bit BIT_AUTO_MAN_1 R W Unsigned Short OFF 2049 12 02 01 E1 MainMenu E1 Expert Bit BIT_AUTO_MAN_2 4097 12 03 01 E2 MainMenu E2 Expert Bit BIT_AUTO_MAN_3 The bit sets the automatic manual operation of the Advanced Power Controller Options OFF Automatic ON Manual The digital input function can be used to put the Advanced Power Controller in MAN manual status and set...

Страница 104: ...plained below the STA TUS_W parameter should also be considered in manual power correction see paragraph 3 22 3 Status STA TUS_W When moving from AUTO to MAN mode sudden output changes are possible 3 23 1 Mains voltage Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1529 505 16 bit 07 02 07 r...

Страница 105: ...n switching off 3 24 Start modes 3 24 1 Start mode at Power On Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1723 699 16 bit 07 02 09 P Ont M MainMenu M Controls P Ont_1 R W Unsigned Short 0 2747 07 03 09 E1 MainMenu E1 Controls P Ont_2 4795 01 04 09 E2 MainMenu E2 Controls P Ont_3 This par...

Страница 106: ...igital input status 3 25 1 Software startup shutdown Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1035 11 bit 12 01 02 BIT_ SOFT WARE_ ON_OFF M MainMenu M Expert Bit IT_SOFTWARE_ON_OFF_1 R W OFF 2059 12 02 02 E1 MainMenu E1 Expert Bit IT_SOFTWARE_ON_OFF_2 4107 12 03 02 E2 MainMenu E2 Exper...

Страница 107: ...he line voltage is switched off 3 26 2 Enabling retentive memory storage Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1925 901 16 bit 07 01 02 EEP E Global MainMenu Global Comms EEP E R W Unsigned Short 0 The parameter sets how the parameters are saved in the retentive memory With 0 retent...

Страница 108: ...OFF cycles The ratio of the number of ON cycles to the number of OFF cycles is proportional to the value of the power to be supplied to the load The repetition period or cycle time is kept as short as possible for each power value The parameter bF Cy defines the minimum number of con duction cycles which can be set from 1 to 10 In the case of a three phase load star without neutral or closed delta...

Страница 109: ...e in steady state BF mode Peak current control in softstart load RMS current control in steady state load Index Softstart ramp Trigger mode in steady state BF mode Peak current control in softstart load RMS current control in steady state load 0 NO ZC BF NO NO 16 NO ZC BF NO YES 1 YES ZC BF NO NO 17 YES ZC BF NO YES 2 NO PA NO NO 18 NO PA NO YES 3 YES PA NO NO 19 YES PA NO YES 4 NO ZC BF HSC NO NO...

Страница 110: ... A 200 0 250 A 250 0 300 A 300 0 400 A 400 0 500 A 500 0 600 A 600 0 With a three phase load a different Fu tA parameter value can be set for each module This allows for example control of an unbalanced three phase load min max 0 0 3275 0 3 27 3 Minimum number of cycles of BF mode Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Defaul...

Страница 111: ...ed at the first startup after the Power On and after a software restart It can be reactivated by a software command by writing bit 108 or automatically if there are OFF conditions for a time longer than that set in PS oF if 0 the function is as if it were disabled The switch off ramp can also be enabled via parameter hd 5 256 In this case zero power is achieved within the set time 3 28 1 Maximum p...

Страница 112: ...ess Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1730 706 16 bit 09 01 06 PS tA M MainMenu M Power controls PS tA_1 R W Float Apk see table 2754 09 02 06 E1 MainMenu E1 Power controls PS tA_2 4802 09 03 06 E2 MainMenu E2 Power controls PS tA_3 The parameter sets the maximum peak current limit duri...

Страница 113: ...f mea surement Default Single node Multi node Description 1130 106 bit M BIT_ STATUS_ SOFTS TART M MainMenu M Expert Bit BIT_STATUS_SOFTSTART_1 R 2154 E1 E1 MainMenu E1 Expert Bit BIT_STATUS_SOFTSTART_2 4202 E2 E2 MainMenu E2 Expert Bit BIT_STATUS_SOFTSTART_3 The bit shows the status of the phase softstart ramp Options OFF Ramp not active ON Ramp active 3 28 7 Phase softstart ramp completion statu...

Страница 114: ...er depends on the configuration Type of load Default GPC M GPC E1 GPC E2 Three phase star load without neutral or closed delta with DIP switch 5 ON inductive load 40 40 90 All other types of load 60 60 60 min max 0 90 3 29 2 Delay triggering with rotation of phases 1 3 2 Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single n...

Страница 115: ...any case the function of the RMS current control in steady state Fu tA parameter remains unaffected erosion of power output to limit current In PA the RMS current is obtained as a full wave projection based on the percentage of phase angle implemented In ZC BF HSC the RMS current is I on In two phase or three phase configuration the condi tions on the RMS currents of the modules are in logical AND...

Страница 116: ...ment Default Single node Multi node Description 1920 896 16 bit 09 04 03 FC tA M MainMenu M Power controls FC tA_1 R W Float 10 0 2944 09 05 02 E1 MainMenu E1 Power controls FC tA_2 4992 09 06 02 E2 MainMenu E2 Power controls FC tA_3 The parameter sets the current hysteresis value required to activate the Firing Change It is expressed in of the current threshold Fu tA or FC thr only if enabled by ...

Страница 117: ... Virtual SERIAL_FC_3 The parameter sets the Firing Change mode set via serial Options 0 ZC BF HSC mode 1 PA mode 3 30 6 Firing Change status set via serial Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1145 121 bit BIT_ SERIAL_ FC_PA_ MODE M MainMenu M Expert Bit BIT_SERIAL_FC_PA_MODE_1 R W...

Страница 118: ...ltage and or load impedance with respect to the rated current value stored in the riF I parameter expressed in Arms The current value maintained on the load is equal to the result of the formula rif I Ou P 100 and is contained in the Modbus 757 register Power feedback P This is used to keep the load power constant It compen sates possible variations in line voltage and or load imped ance with resp...

Страница 119: ...on Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1755 731 16 bit 09 01 11 Cor V M MainMenu M Power controls Cor V_1 R W Float 100 0 2779 09 02 11 E1 MainMenu E1 Power controls Cor V_2 4827 09 03 11 E2 MainMenu E2 Power controls Cor V_3 The parameter sets the maximum correction of the voltag...

Страница 120: ...iF V_3 The parameter sets the voltage feedback reference i e the rated voltage min max 0 0 999 9 3 31 6 Current feedback reference Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1758 734 16 bit 09 01 15 riF I M MainMenu M Power controls riF I_1 R W Float A 0 0 2782 09 02 15 E1 MainMenu E1 Po...

Страница 121: ...EED BACK M MainMenu M Expert Bit BIT_CALIB_FEEDBACK_1 R W OFF 2161 12 02 06 E1 MainMenu E1 Expert Bit BIT_CALIB_FEEDBACK_2 4227 12 03 06 E2 MainMenu E2 Expert Bit BIT_CALIB_FEEDBACK_3 The bit enables and disables calibration of the feedback reference Options OFF No function ON Calibration enabled 3 31 10 Feedback reference Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute...

Страница 122: ...loat A 0 0 The parameter sets the maximum current for heuristic power control min max 0 0 3275 0 3 32 Heuristic power control Heuristic mode allows for the device to synchronize out puts within the device to maintain a more steady usage of power Heuristic mode that is not enabled could result in all outputs being turned on full conduction at the same time or conversely all off at the same time Wit...

Страница 123: ...ess Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1706 682 16 bit 09 08 01 hd 4 Global MainMenu Global Powers hd 4 R W Unsigned Short 0 The parameter enables heterogeneous power control of GPC M GPC E1 and GPC E2 Setting hd 4 0 disables heterogeneous power control for all modules Options Index GPC ...

Страница 124: ...its in the SERIAL_IN_OUT register 3 34 1 Enabling instrument control via serial Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1215 191 16 bit 10 01 01 hd 1 Global MainMenu Global Controls hd 1 R W Unsigned Short 0 The parameter enables control of the virtual instrument via serial Options 0 ...

Страница 125: ...tputs OUT10 OUT9 OUT8 OUT7 OUT6 OUT5 OUT4 OUT3 OUT2 OUT1 bit 9 8 7 6 5 4 3 2 1 0 min max 0 1023 3 34 4 LED and digital input control from serial Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1652 628 16 bit 10 01 06 S LI Global MainMenu Global Expert Virtual S LI R W Unsigned Short 0 The pa...

Страница 126: ...Alarm threshold AL4 for GPC E2 4417 321 word SERIAL_AL4_3 S Ou 0 OUT 1 output 1368 344 word bit 0 SERIAL_IN_OUT 1 OUT 2 output 1368 344 word bit 1 SERIAL_IN_OUT 2 OUT 3 output 1368 344 word bit 2 SERIAL_IN_OUT 4 OUT 5 output relay 1368 344 word bit 4 SERIAL_IN_OUT 4 OUT 5 output Analog A1 1751 727 word SERIAL_OUTA1 5 OUT 6 output relay 1368 344 word bit 5 SERIAL_IN_OUT 5 OUT 6 output Analog A2 175...

Страница 127: ...Pd Global MainMenu Global Info UPd R Float The register shows the software version versione_major versione_minor 3 35 2 Hardware configuration codes Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1214 190 16 bit 02 02 C Hd Global MainMenu Global Info C Hd R Unsigned Short The register shows ...

Страница 128: ...11 FIELDBUS Ethernet 12 FIELDBUS Euromap66 13 FIELDBUS ETH3 14 FIELDBUS ETH7 Ethercat 15 FIELDBUS ETH1 Ethernet IP 3 35 4 Hardware configuration codes 2 3 4 Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1567 543 16 bit 02 04 C Hd2 Global MainMenu Global Info C Hd2 R Unsigned Short 1216 162 ...

Страница 129: ...f mea surement Default Single node Multi node Description 1720 696 16 bit 02 12 bAu F Global MainMenu Global Comms bAu F R Unsigned Short The register shows the transmission speed of the Fieldbus board based on the Fieldbus type Options Profibus CANopen Ethernet bAu f baudrate bAu f baudrate bAu f baudrate 0 12 00 Mbit s 0 1000 kbit s 0 100 Mbit s 1 6 00 Mbit s 1 800 kbit s 1 10 Mbit s 2 3 00 Mbit...

Страница 130: ...delta load with TWO PHASE control 3 35 10 Enabling virtual DIP switch control Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1797 773 16 bit 03 01 06 J Set Global MainMenu Global Parameters J Set R W Unsigned Short 0 The factory configuration has the hardware DIP switch control active J Set ...

Страница 131: ...hows the device identifier GPC within the Modbus communication network 3 35 14 LED operation The status of the LEDs RN ER DI1 DI2 O1 O2 O3 and BUT refers to the status of the corresponding parameter with the following exceptions LED behaviour Description of signal LED RN green on Key function active LED RN green and LED ER red flash quickly together Autobaud in progress LED ER red flashing Tempera...

Страница 132: ...l Leds Ld 3 R W Unsigned Short 15 1645 621 16 bit 06 08 04 Ld 4 Global MainMenu Global Leds Ld 4 R W Unsigned Short 11 This parameter sets the function associated with the RN Ld St ER Ld 2 DI1 Ld 3 and DI2 Ld 4 LEDs according to the address used The function is identified by an index Options Index Function associated with the LED 0 RUN 1 MAN AUTO controller 6 INDIG1 digital input configuration 7 S...

Страница 133: ...the O1 Ld 5 O2 Ld 6 O3 Ld 7 and BUTTON Ld 8 LEDs according to the address used The function is identified by an index Options Index Function associated with the LED 0 Disabled 1 Repetition of status OUT 1 2 Repetition of status OUT 2 3 Repetition of status OUT 3 4 Key status 5 Repetition of status OUT 5 6 Repetition of status OUT 6 7 Repetition of status OUT 7 8 Repetition of status OUT 8 9 Repeti...

Страница 134: ...R_FAULT 5 Ou P 0 8 AL1 9 AL2 10 AL3 11 AL4 12 AL HB OR POWER_FAULT 13 ON OFF 14 AUTO MAN 3 35 20 Status 1 STATUS1 Address Format GPC OP menu Acronym Global M E1 E2 GF_eXpress menu Attribute Retentive Type Unit of mea surement Default Single node Multi node Description 1493 469 16 bit 01 02 16 STATUS1 M MainMenu M Status STATUS1_1 R Unsigned Short 2517 01 03 16 E1 MainMenu E1 Status STATUS1_2 4565 ...

Страница 135: ...tatus STATUS2_2 4728 01 04 17 E2 MainMenu E2 Status STATUS2_3 The parameter shows the status of the device The individual statuses are highlighted by the corresponding bit Options bit State of 0 AL1 1 AL2 2 AL3 3 AL4 4 AL HB PHASE 1 with three phase load 5 AL HB PHASE 2 with three phase load 6 AL HB PHASE 3 with three phase load 3 35 22 Status 3 STATUS3 See paragraph 3 15 5 Status 3 STATUS3 3 35 2...

Страница 136: ...y pressed 1 sec Key pressed 2 sec 3 36 Key functions The Advanced Power Controller key allows the status of the device to be changed A pressing and holding the key changes the status the length of time key is pressed determines the new status Release the key before switching to another status The arrival status is determined by the departure status When the key is pressed the RN and BUT LEDs light...

Страница 137: ... therefore be extended downwards so that 80 of the modified range corresponds to the useful range 0 100 80 of 125 corresponds to 100 Setting LS A 25 0 and HS A 100 0 gives the desired result 0 0 2 4 6 8 10 100 50 100 LS A 0 0 HS A 100 0 VIN Ou P 0 0 2 4 6 8 10 100 50 100 LS A 25 0 HS A 100 0 VIN Ou P 4 1 3 Input voltage range limited upwards Initial data VIN 0 9 V tyP 1 In this case the VIN input ...

Страница 138: ...this case the power controller is brought into Manual MAN condition providing Man P power test values A B status Setting Address for serial writing dIG1 dIG2 dIG3 dIG4 16 bit access 1 bit access AUTO MAN controller 1 STATUS_W 305 bit 4 BIT_AUTO_ MAN 1 Software ON OFF 6 STATUS_W 305 bit 4 BIT_SOFT WARE_ON_ OFF 11 A B A B A B A B A B STATUS GPC M DIGITAL INPUT LEADING EDGE or on Power On SERIAL WRIT...

Страница 139: ...c to each individual module The software startup function OFF can be used in fault or emergency conditions by resetting the control of the heating resistors Setting Address for serial writing dIG 1 16 bit access 1 bit access Software ON OFF 6 STATUS_W 305 bit 3 BIT_SOFT WARE_ON_ OFF 11 ON OFF ON OFF STATUS GPC M SERIAL WRITING ON OFF GPC M SERIAL WRITING GPC E1 ON OFF SERIAL WRITING GPC E2 ON OFF ...

Страница 140: ... variable A single hysteresis value Hy 2 negative an alarm threshold AL 2 and the value to which it relates are set The previous alarm threshold in this case AL 1 is used as the relative value With the direct alarm setting the alarm is triggered when the reference value A2 r is greater than AL 1 AL 2 for the set delay activation time The alarm condition stops when the measured value is less than A...

Страница 141: ...r each phase relat ed to the HB alarm is Hb t i e the delay time for activation of the HB alarm understood as the sum of times for which the alarm is considered active For example with Hb F 0 active alarm with current below the threshold value Hb t 60 sec and control output cycle time 10 sec power delivered at 60 the alarm will activated after 100 seconds output ON for 6 seconds each cycle Under t...

Страница 142: ...re equal to n k n k it is seen that the possible combinations of conduction can be I1 I2 48 A I1 I3 57 A I2 I3 41 A I1 I2 I3 73 A The combinations corresponding to current values below the current limit value I HEU are therefore I1 I2 48 A I2 I3 41 A Of these the one with the lowest current is the sum of GPC E1 and GPC E2 In the single cycle for the enabled modules the delivery of power may be red...

Страница 143: ...p when GPC reaches a current limit condition if enabled During normal operation this LED is off SST Yellow The LED is on during the softstart ramp ALM Red The LED is on when GPC signals the activation of an alarm ESC Returns to the main menu Exits a parameter or a list of parameters Exits a message that requires its use Navigation keys E ENTER Enters the selected submenu or parameter or selects an...

Страница 144: ... the main menu Press the and keys to scroll through the various menu items Each menu item is preceded by a numerical address with 2 digits 1st level menu 4 digits 2nd level menu or 6 dig its 3rd level menu The address digits are grouped in twos and separated by a dot 04 01 STATUS M 04 02 STATUS E1 04 03 STATUS E2 04 04 ANALOG In A1 04 05 ANALOG In A2 In the above screenshot the parameter ANALOG In...

Страница 145: ...he red ALM LED is activated and the ALARM screen is automatically displayed show ing the details of the first alarm detected by the parameter scan the parameters show the status starting from the least significant bit The and keys can be used to scroll through the details of any other alarms that may be present When there are no more active alarms because they have been reset via the ACK key or re...

Страница 146: ...1 09 03 SSR MODE E2 09 04 FIRING CHANG M 09 05 FIRING CHANG E1 09 06 FIRING CHANG E2 09 07 HEURISTIC 09 08 HETEROGENEOUS 04 INPUTS 04 01 STATUS GLOBAL 04 02 STATUS M 04 03 STATUS E1 04 04 STATUS E2 04 05 ANALOG In A1 04 06 ANALOG In A2 04 07 ANALOG In A3 04 08 CT M 04 09 VT line M 04 10 VT load M 04 11 CT E1 04 12 VT line E1 04 13 VT load E1 04 14 CT E2 04 15 VT line E2 04 16 VT load E2 04 17 DIGI...

Страница 147: ... 03 FrEq line frequency 01 03 04 I on on current 01 03 05 Ld V load voltage 01 03 06 Ld A load current 01 03 07 Ld P load power 01 03 08 Ld I load impedance 01 03 09 Ld E1 load energy 1 01 03 10 Ld E2 load energy 2 01 03 11 FO c1 fuse open cnt 01 03 12 FO c2 fuse open cnt 01 03 13 OH c operating cnt 01 03 14 STATUS_W mode 01 03 15 STATUS 01 03 16 STATUS1 01 03 17 STATUS2 01 03 18 STATUS3 01 03 19 ...

Страница 148: ... 04 11 05 r tA transfor ratio 04 14 CT E2 04 14 01 L tA min scales 04 14 02 H tA max scale 04 14 03 o tA offset scale 04 14 04 Ft tA time filter 04 14 05 r tA transfor ratio 04 09 VT line M 04 09 01 L tV min scale 04 09 02 H tV max scale 04 09 03 o tV offset scale 04 09 04 Ft tV time filter 04 12 VT line E1 04 12 01 L tV min scale 04 12 02 H tV max scale 04 12 03 o tV offset scale 04 12 04 Ft tV t...

Страница 149: ...hreshold 05 02 25 AL 8 threshold 05 02 26 HY 1 hysteresis 05 02 27 HY 2 hysteresis 05 02 28 HY 3 hysteresis 05 02 29 HY 4 hysteresis 05 02 30 HY 5 hysteresis 05 02 31 HY 6 hysteresis 05 02 32 HY 7 hysteresis 05 02 33 HY 8 hysteresis 05 02 34 A1 P validat pow 05 02 35 A2 P validat pow 05 02 36 A3 P validat pow 05 02 37 A4 P validat pow 05 02 38 A5 P validat pow 05 02 39 A6 P validat pow 05 02 40 A7...

Страница 150: ...ion 6 05 05 25 Ir tV 7 calibration 7 05 05 26 Ir tV 8 calibration 8 05 05 27 Ir tV 9 calibration 9 05 06 HB E2 05 06 01 Hb F functions 05 06 02 Hb t time delay 05 06 03 A Hb 1 threshold 05 06 04 Hb P percentage 05 06 05 Hb tA calibration 05 06 06 Hb tV calibration 05 06 07 Hb Pw calibration 05 06 08 Ir tA 0 calibration 0 05 06 09 Ir tA 1 calib 1 05 06 10 Ir tA 2 calib 2 05 06 11 Ir tA 3 calib 3 05...

Страница 151: ... P oFS out offset 07 02 05 G oUt out gradient 07 02 06 Lo P min firing 07 02 07 rIF reference 07 02 08 Cor correction 07 02 09 P ont poweron type 08 01 SETTINGS 08 01 01 Fr n fuse restart n 07 03 SETTINGS E1 07 03 01 MAN_POWER manual pw 07 03 02 SPU enable 07 03 03 P PEr out rescale 07 03 04 P oFS out offset 07 03 05 G oUt out gradient 07 03 06 Lo P min firing 07 03 07 rIF reference 07 03 08 Cor c...

Страница 152: ... 04 01 Hd 7 enable 09 04 02 FC tA perc of Fu tA 09 04 03 FC P min power 09 05 FIRING CHANG E1 09 05 01 FC tA perc of Fu tA 09 05 02 FC P min power 09 07 HEURISTIC 09 07 01 hd 3 heuristic 09 07 02 I HEU max current 09 06 FIRING CHANG E2 09 06 01 FC tA perc of Fu tA 09 06 02 FC P min power 09 08 HETEROGENEOUS 09 08 01 hd 4 heterogeneous 09 08 02 I HEt max current 09 02 SSR MODE E1 09 02 01 Hd 5 firi...

Страница 153: ...Var2 11 01 03 CustomVar3 11 01 119 CustomVar119 11 01 120 CustomVar120 12 01 COMMANDS M 12 01 01 Power mode 12 01 02 Software On Off 12 01 03 Reset AL1 AL8 12 01 04 Reset PF alarms 12 01 05 HB calib 12 01 06 Calibrated feedback 5 4 12 11 CUSTOM MAP 3rd level menu 5 4 13 12 COMMANDS 3rd level menu ...

Страница 154: ...ing panel for GFW GPC Power Controllers LCD display 5 lines by 21 characters keypad for recalling and setting parameters Attachment to GFW GPC M via magnetic plate F032861 CV4 03 Cable L 0 3 m for Modbus serial connection RJ10 local bus F032862 CV4 1 Cable L 1 m for Modbus serial connection RJ10 local bus F032863 CV4 2 Cable L 2 m for Modbus serial connection RJ10 local bus F032864 CV4 5 Cable L 5...

Страница 155: ......

Страница 156: ...GEFRAN spa via Sebina 74 25050 Provaglio d Iseo BS Italy Tel 39 0309888 1 Fax 39 0309839063 info gefran com http www gefran com ...

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